Effects of deep brain stimulation of dorsal versus ventral subthalamic nucleus regions on gait and balance in Parkinson's disease
ME McNeely, T Hershey, MC Campbell… - Journal of Neurology …, 2011 - jnnp.bmj.com
ME McNeely, T Hershey, MC Campbell, SD Tabbal, M Karimi, JM Hartlein, HM Lugar…
Journal of Neurology, Neurosurgery & Psychiatry, 2011•jnnp.bmj.comObjective Deep brain stimulation (DBS) of the subthalamic nucleus (STN) improves motor
function, including gait and stability, in people with Parkinson's disease (PD) but differences
in DBS contact locations within the STN may contribute to variability in the degree of
improvement. Based on anatomical connectivity, dorsal STN may be preferentially involved
in motor function and ventral STN in cognitive function. Methods To determine whether
dorsal DBS affects gait and balance more than ventral DBS, a double blind evaluation of 23 …
function, including gait and stability, in people with Parkinson's disease (PD) but differences
in DBS contact locations within the STN may contribute to variability in the degree of
improvement. Based on anatomical connectivity, dorsal STN may be preferentially involved
in motor function and ventral STN in cognitive function. Methods To determine whether
dorsal DBS affects gait and balance more than ventral DBS, a double blind evaluation of 23 …
Objective
Deep brain stimulation (DBS) of the subthalamic nucleus (STN) improves motor function, including gait and stability, in people with Parkinson's disease (PD) but differences in DBS contact locations within the STN may contribute to variability in the degree of improvement. Based on anatomical connectivity, dorsal STN may be preferentially involved in motor function and ventral STN in cognitive function.
Methods
To determine whether dorsal DBS affects gait and balance more than ventral DBS, a double blind evaluation of 23 PD patients with bilateral STN DBS was conducted. Each participant underwent gait analysis and balance testing off Parkinson's medication under three DBS conditions (unilateral DBS in the dorsal STN region, unilateral DBS in the ventral STN region and both stimulators off) on 1 day.
Results
Improvements were seen in Unified Parkinson's Disease Rating Scale (UPDRS)-III scores and velocity in walking trials as fast as possible (Fast gait) and preferred pace (Pref gait), as well as stride length for Fast and Pref gait, with dorsal and ventral stimulation compared with the off condition (post hoc tests, p<0.05). However, there were no differences with dorsal compared to ventral stimulation. Balance, assessed using the multi-item mini-Balance Evaluation Systems Test (mini-BESTest), was similar across conditions.
Conclusions
Absence of differences in gait and balance between the dorsal and ventral conditions suggests motor connections involved in gait and balance may be more diffusely distributed in STN than previously thought, as opposed to neural connections involved in cognitive processes, such as response inhibition, which are more affected by ventral stimulation.
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